Holographic Software Free Download
Real 3. D display Home Holografika. Watching 3. D images on Holo. Vizio is simple as blinking your eyes. No need to wear glasses, nor polarized neither bicolor anaglyph. Simply stand in front of the screen and enjoy the highest quality 3. D image available by our latest patented technologies. Other 3. D displaying technologies that use glasses usually create artifacts by causing eye strain, headache, dizziness to the users. Watching 3. D images without glasses demolishes these limits of watching 3. D displays for longer period of time. Holo. Vizio is the only technology capable of showing natural 3. D images without glasses that is available on the market today. TheINQUIRER publishes daily news, reviews on the latest gadgets and devices, and INQdepth articles for tech buffs and hobbyists. You are here Home Desktop Software Operating Systems Rumours Windows 10 release date, features, devices and free upgrade Microsoft issues blueprint for ultra. Learn more about wills, trusts, estates, estate planning, holographic wills, inheritance, and other legal matters at FindLaw. com. Microsoft shows off holographic version of Minecraft allowing users to turn their table into a virtual world and brings Xbox 360 games to the Xbox One. Holographic data storage Wikipedia. Optical discs. Optical media types. Compact disc CD CD DA, CD ROM, CD R, CD RW, 5. Music Disc, Super Audio CD SACD, Photo CD, CD Video CDV, Video CD VCD, Super Video CD SVCD, CDG, CD Text, CD ROM XA, CD i. DVD DVD R, DVDR, DVD R DL, DVDR DL, DVD R DS, DVDR DS, DVD RW, DVDRW, DVD RAM, DVD D, DVD A, HVD, Eco. Disc. Blu ray Disc BD BD R BD RE, Ultra HD Blu ray. Blu ray 3. DUniversal Media Disc UMDEnhanced Versatile Disc EVDForward Versatile Disc FVDHolographic Versatile Disc HVDChina Blue High definition Disc CBHDHD DVD HD DVD R, HD DVD RW, HD DVD RAMHigh Definition Versatile Multilayer Disc HD VMDVCDHDGD ROMPersonal Video Disc PVDMini. Disc MD, Hi MDLaser. Disc LD, LD ROM, LV ROMVideo Single Disc VSDUltra Density Optical UDOStacked Volumetric Optical Disk SVODFive dimensional disc 5. D DVDNintendo optical disc NODArchival Disc. FortiExplorer is a simpletouse setup wizard enabling you to quickly and easily install FortiGate, FortiWiFi and FortiAP devices. Main features Quick. Professional Disc. Holographic data storage is a potential technology in the area of high capacity data storage currently dominated by magnetic data storage and conventional optical data storage. Magnetic and optical data storage devices rely on individual bits being stored as distinct magnetic or optical changes on the surface of the recording medium. Holographic data storage records information throughout the volume of the medium and is capable of recording multiple images in the same area utilizing light at different angles. Additionally, whereas magnetic and optical data storage records information a bit at a time in a linear fashion, holographic storage is capable of recording and reading millions of bits in parallel, enabling data transfer rates greater than those attained by traditional optical storage. 1Recording dataeditHolographic data storage contains information using an optical interference pattern within a thick, photosensitive optical material. Light from a single laser beam is divided into two, or more, separate optical patterns of dark and light pixels. By adjusting the reference beam angle, wavelength, or media position, a multitude of holograms theoretically, several thousands can be stored on a single volume. Reading dataeditThe stored data is read through the reproduction of the same reference beam used to create the hologram. The reference beams light is focused on the photosensitive material, illuminating the appropriate interference pattern, the light diffracts on the interference pattern, and projects the pattern onto a detector. The detector is capable of reading the data in parallel, over one million bits at once, resulting in the fast data transfer rate. Files on the holographic drive can be accessed in less than 0. LongevityeditHolographic data storage can provide companies a method to preserve and archive information. The write once, read many WORM approach to data storage would ensure content security, preventing the information from being overwritten or modified. Manufacturerswho believe this technology can provide safe storage for content without degradation for more than 5. Counterpoints to this claim are that the evolution of data reader technology has in the last couple of decades changed every ten years. If this trend continues, it therefore follows that being able to store data for 5. However, claimed longevity of storage has, in the past, proven to be a key indicator of shorter term reliability of storage media. Current optical formats such as CD have largely lived up to the original longevity claims where reputable media makes are used and have proved to be more reliable shorter term data carriers than the floppy disk and DAT media they displaced. 2Terms usededitSensitivity refers to the extent of refractive indexmodulation produced per unit of exposure. Diffraction efficiency is proportional to the square of the index modulation times the effective thickness. The dynamic range determines how many holograms may be multiplexed in a single volume data. Spatial light modulators SLM are pixelated input devices liquid crystal panels, used to imprint the data to be stored on the object beam. Technical aspectseditLike other media, holographic media is divided into write once where the storage medium undergoes some irreversible change, and rewritable media where the change is reversible. Rewritable holographic storage can be achieved via the photorefractive effect in crystals Mutually coherent light from two sources creates an interference pattern in the media. These two sources are called the reference beam and the signal beam. Where there is constructive interference the light is bright and electrons can be promoted from the valence band to the conduction band of the material since the light has given the electrons energy to jump the energy gap. The positively charged vacancies they leave are called holes and they must be immobile in rewritable holographic materials. Where there is destructive interference, there is less light and few electrons are promoted. Electrons in the conduction band are free to move in the material. They will experience two opposing forces that determine how they move. The first force is the coulomb force between the electrons and the positive holes that they have been promoted from. This force encourages the electrons to stay put or move back to where they came from. The second is the pseudo force of diffusion that encourages them to move to areas where electrons are less dense. If the coulomb forces are not too strong, the electrons will move into the dark areas. Beginning immediately after being promoted, there is a chance that a given electron will recombine with a hole and move back into the valence band. The faster the rate of recombination, the fewer the number of electrons that will have the chance to move into the dark areas. This rate will affect the strength of the hologram. After some electrons have moved into the dark areas and recombined with holes there, there is a permanent space charge field between the electrons that moved to the dark spots and the holes in the bright spots. This leads to a change in the index of refraction due to the electro optic effect. When the information is to be retrieved or read out from the hologram, only the reference beam is necessary. The beam is sent into the material in exactly the same way as when the hologram was written. As a result of the index changes in the material that were created during writing, the beam splits into two parts. One of these parts recreates the signal beam where the information is stored. Something like a CCD camera can be used to convert this information into a more usable form. Holograms can theoretically store one bit per cubic block the size of the wavelength of light in writing. For example, light from a heliumneon laser is red, 6. Using light of this wavelength, perfect holographic storage could store 5. At the extreme end of the laser spectrum, fluorineexcimer laser at 1. In practice, the data density would be much lower, for at least four reasons The need to add error correction. The need to accommodate imperfections or limitations in the optical system. Economic payoff higher densities may cost disproportionately more to achieveDesign technique limitationsa problem currently faced in magnetic Hard Drives wherein magnetic domain configuration prevents manufacture of disks that fully utilize the theoretical limits of the technology.